/* SPDX-License-Identifier: BSD-2-Clause */

/*
 *  COPYRIGHT (c) 2012,2019 Chris Johns <chrisj@rtems.org>
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 * POSSIBILITY OF SUCH DAMAGE.
 */
/**
 * @file
 *
 * @ingroup rtems_rtl
 *
 * @brief RTEMS Run-Time Linker Object Support.
 */

#if !defined (_RTEMS_RTL_OBJ_H_)
#define _RTEMS_RTL_OBJ_H_

#include <rtems.h>
#include <rtems/chain.h>
#include <rtems/rtl/rtl-sym.h>
#include <rtems/rtl/rtl-unresolved.h>

#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */

/**
 * Loader format flags.
 */
#define RTEMS_RTL_FMT_ELF     (1 << 0)
#define RTEMS_RTL_FMT_COMP    (1 << 1)
#define RTEMS_RTL_FMT_PRIVATE (1 << 16)

/**
 * Loader format definition.
 */
typedef struct rtems_rtl_loader_format
{
  /**
   * The format label. This can be used to determine and manage
   * specific formats.
   */
  const char* label;

  /**
   * The format flags.
   */
  uint32_t flags;
} rtems_rtl_loader_format;

/**
 * The type of the format loader check handler. This handler checks the format
 * and if it is detected as suitable it returns true.
 */
typedef bool (*rtems_rtl_loader_check) (rtems_rtl_obj* obj, int fd);

/**
 * The type of the format loader load handler. This handler loads the specific
 * format.
 */
typedef bool (*rtems_rtl_loader_load) (rtems_rtl_obj* obj, int fd);

/**
 * The type of the format loader unload handler. This handler unloads the
 * specific format.
 */
typedef bool (*rtems_rtl_loader_unload) (rtems_rtl_obj* obj);

/**
 * The type of the format loader signature handler. This handler checks the
 * format signature.
 */
typedef rtems_rtl_loader_format* (*rtems_rtl_loader_sig) (void);

/**
 * Table for supported loadable formats.
 */
typedef struct rtems_rtl_loader_table
{
  rtems_rtl_loader_check  check;     /**< The check handler. */
  rtems_rtl_loader_load   load;      /**< The loader. */
  rtems_rtl_loader_unload unload;    /**< The unloader. */
  rtems_rtl_loader_sig    signature; /**< The loader's signature. */
} rtems_rtl_loader_table;

/**
 * Flags for the various section types.
 */
#define RTEMS_RTL_OBJ_SECT_TEXT       (1 << 0)  /**< Section holds program text. */
#define RTEMS_RTL_OBJ_SECT_CONST      (1 << 1)  /**< Section holds program text. */
#define RTEMS_RTL_OBJ_SECT_DATA       (1 << 2)  /**< Section holds program data. */
#define RTEMS_RTL_OBJ_SECT_BSS        (1 << 3)  /**< Section holds program bss. */
#define RTEMS_RTL_OBJ_SECT_EH         (1 << 4)  /**< Section holds exception data. */
#define RTEMS_RTL_OBJ_SECT_TLS        (1 << 5)  /**< Section holds TLS data. */
#define RTEMS_RTL_OBJ_SECT_REL        (1 << 6)  /**< Section holds relocation recs. */
#define RTEMS_RTL_OBJ_SECT_RELA       (1 << 7)  /**< Section holds reloc addend recs. */
#define RTEMS_RTL_OBJ_SECT_SYM        (1 << 8)  /**< Section holds symbols. */
#define RTEMS_RTL_OBJ_SECT_STR        (1 << 9)  /**< Section holds strings. */
#define RTEMS_RTL_OBJ_SECT_ALLOC      (1 << 10  /**< Section allocates runtime memory. */
#define RTEMS_RTL_OBJ_SECT_LOAD       (1 << 11) /**< Section is loaded from object file. */
#define RTEMS_RTL_OBJ_SECT_WRITE      (1 << 12) /**< Section is writable, ie data. */
#define RTEMS_RTL_OBJ_SECT_EXEC       (1 << 13) /**< Section is executable. */
#define RTEMS_RTL_OBJ_SECT_ZERO       (1 << 14) /**< Section is preset to zero. */
#define RTEMS_RTL_OBJ_SECT_LINK       (1 << 15) /**< Section is link-ordered. */
#define RTEMS_RTL_OBJ_SECT_CTOR       (1 << 16) /**< Section contains constructors. */
#define RTEMS_RTL_OBJ_SECT_DTOR       (1 << 17) /**< Section contains destructors. */
#define RTEMS_RTL_OBJ_SECT_LOCD       (1 << 18) /**< Section has been located. */
#define RTEMS_RTL_OBJ_SECT_ARCH_ALLOC (1 << 19) /**< Section use arch allocator. */

/**
 * Section types mask.
 */
#define RTEMS_RTL_OBJ_SECT_TYPES (RTEMS_RTL_OBJ_SECT_TEXT | \
                                  RTEMS_RTL_OBJ_SECT_CONST | \
                                  RTEMS_RTL_OBJ_SECT_DATA | \
                                  RTEMS_RTL_OBJ_SECT_BSS | \
                                  RTEMS_RTL_OBJ_SECT_TLS | \
                                  RTEMS_RTL_OBJ_SECT_EH)

/**
 * An object file is made up of sections and the can be more than
 * one of a specific type of sections. All sections and grouped
 * together in memory.
 */
struct rtems_rtl_obj_sect
{
  rtems_chain_node node;        /**< The node's link in the chain. */
  int              section;     /**< The section number. */
  const char*      name;        /**< The section's name. */
  size_t           size;        /**< The size of the section in memory. */
  off_t            offset;      /**< Offset into the object file. Relative to
                                 *   the start of the object file. */
  uint32_t         alignment;   /**< Alignment of this section. */
  int              link;        /**< Section link field. */
  int              info;        /**< Secfion info field. */
  uint32_t         flags;       /**< The section's flags. */
  void*            base;        /**< The base address of the section in
                                 *   memory. */
  int              load_order;  /**< Order we load sections. */
};

/**
 * Object file dependents. This is a list of tables of pointers to the object
 * modules the object file depends on. The table is a list of tables because
 * unresolved externals can exist when an object file is loaded and resolved
 * later when the dependent object file is loaded.
 */
struct rtems_rtl_obj_depends
{
  rtems_chain_node node;        /**< The node's link in the chain. */
  size_t           dependents;  /**< The number of dependent object pointers. */
  rtems_rtl_obj*   depends[];   /**< Dependtent objects. More follow. */
};

/**
 * Dependency iterator.
 */
typedef bool (*rtems_rtl_obj_depends_iterator) (rtems_rtl_obj* obj,
                                                rtems_rtl_obj* dependent,
                                                void*          data);

/**
 * Object file descriptor flags.
 */
#define RTEMS_RTL_OBJ_LOCKED       (1 << 0) /**< Lock the object file so it cannot
                                             *   be unloaded. */
#define RTEMS_RTL_OBJ_UNRESOLVED   (1 << 1) /**< The object file has unresolved
                                             *   external symbols. */
#define RTEMS_RTL_OBJ_BASE         (1 << 2) /**< The base image. */
#define RTEMS_RTL_OBJ_RELOC_TAG    (1 << 3) /**< Tag the object as visited when reloc
                                             *   parsing. */
#define RTEMS_RTL_OBJ_DEP_VISITED  (1 << 4) /**< Dependency loop detection. */
#define RTEMS_RTL_OBJ_CTOR_RUN     (1 << 5) /**< Constructors have been called. */

/**
 * RTL Object. There is one for each object module loaded plus one for the base
 * kernel image.
 */
struct rtems_rtl_obj
{
  rtems_chain_node    link;         /**< The node's link in the chain. */
  uint32_t            flags;        /**< The status of the object file. */
  size_t              users;        /**< Users of this object file, number of loads. */
  size_t              refs;         /**< References to the object file. */
  int                 format;       /**< The format of the object file. */
  const char*         fname;        /**< The file name for the object. */
  const char*         oname;        /**< The object file name. Can be
                                     *   relative. */
  const char*         aname;        /**< The archive name containing the
                                     *   object. NULL means the object is not
                                     *   in a lib */
  off_t               ooffset;      /**< The object offset in the archive. */
  size_t              fsize;        /**< Size of the object file. */
  rtems_chain_control sections;     /**< The sections of interest in the object
                                     *   file. */
  rtems_chain_control dependents;   /**< The dependent object files. */
  rtems_rtl_obj_sym*  local_table;  /**< Local symbol table. */
  size_t              local_syms;   /**< Local symbol count. */
  size_t              local_size;   /**< Local symbol memory usage. */
  rtems_rtl_obj_sym*  global_table; /**< Global symbol table. */
  size_t              global_syms;  /**< Global symbol count. */
  size_t              global_size;  /**< Global symbol memory usage. */
  size_t              unresolved;   /**< The number of unresolved relocations. */
  void*               text_base;    /**< The base address of the text section
                                     *   in memory. */
  size_t              text_size;    /**< The size of the text section. */
  void*               const_base;   /**< The base address of the const section
                                     *   in memory. */
  size_t              const_size;   /**< The size of the const section. */
  void*               eh_base;      /**< The base address of the eh section in
                                     *   memory. */
  size_t              eh_size;      /**< The size of the eh section. */
  void*               data_base;    /**< The base address of the data section
                                     *   in memory. */
  size_t              data_size;    /**< The size of the data section. */
  void*               bss_base;     /**< The base address of the bss section in
                                     *   memory. */
  size_t              bss_size;     /**< The size of the bss section. */
  size_t              exec_size;    /**< The amount of executable memory
                                     *   allocated */
  void*               entry;        /**< The entry point of the module. */
  uint32_t            checksum;     /**< The checksum of the text sections. A
                                     *   zero means do not checksum. */
  uint32_t*           sec_num;      /**< The sec nums of each obj. */
  uint32_t            obj_num;      /**< The count of elf files in an rtl
                                     *   obj. */
  void*               trampoline;   /**< Trampoline memory. Used for fixups or
                                     *   veneers */
  size_t              tramp_size;   /**< Size of a tramopline slot. */
  size_t              tramps_size;  /**< Size of the trampoline memory. */
  void*               tramp_brk;    /**< Trampoline memory allocator. MD
                                     *   relocators can take memory from the
                                     *   break up to the size. */
  size_t              tramp_relocs; /**< Number of slots reserved for
                                     *   relocs. The remainder are for
                                     *   unresolved symbols. */
  struct link_map*    linkmap;      /**< For GDB. */
  void*               loader;       /**< The file details specific to a
                                     *   loader. */
};

/**
 * A section handler is called once for each section that needs to be
 * processed by this handler. The handler is specific to a task.
 *
 * @param obj The object file's descriptor the section belongs too.
 * @param fd The file descriptor of the object file beling loaded.
 * @param sect The section the handler is being invoked to handle.
 * @param data A user supplied data variable.
 * @retval true The operation was successful.
 * @retval false The operation failed and the RTL has been set.
 */
typedef bool (*rtems_rtl_obj_sect_handler)(rtems_rtl_obj*      obj,
                                           int                 fd,
                                           rtems_rtl_obj_sect* sect,
                                           void*               data);

/**
 * Get the file name.
 *
 * @param obj The object file.
 * @return const char* The string.
 */
static inline const char* rtems_rtl_obj_fname (const rtems_rtl_obj* obj)
{
  return obj->fname;
}

/**
 * Is the file name valid ?
 *
 * @param obj The object file.
 * @return bool There is a file name
 */
static inline bool rtems_rtl_obj_fname_valid (const rtems_rtl_obj* obj)
{
  return obj->fname;
}

/**
 * Get the object name.
 *
 * @param obj The object file.
 * @return const char* The string.
 */
static inline const char* rtems_rtl_obj_oname (const rtems_rtl_obj* obj)
{
  return obj->oname;
}

/**
 * Is the object name valid ?
 *
 * @param obj The object file.
 * @return bool There is an object name
 */
static inline bool rtems_rtl_obj_oname_valid (const rtems_rtl_obj* obj)
{
  return obj->oname;
}

/**
 * Get the archive name.
 *
 * @param obj The object file.
 * @return const char* The string.
 */
static inline const char* rtems_rtl_obj_aname (const rtems_rtl_obj* obj)
{
  return obj->aname;
}

/**
 * Is the archive name valid ?
 *
 * @param obj The object file.
 * @return bool There is an archive name
 */
static inline bool rtems_rtl_obj_aname_valid (const rtems_rtl_obj* obj)
{
  return obj->aname;
}

/**
 * Is the address inside the text section?
 *
 * @param obj The object file.
 * @return bool There is an archive name
 */
static inline bool rtems_rtl_obj_text_inside (const rtems_rtl_obj* obj,
                                              const void*          address)
{
  return
    (address >= obj->text_base) &&
    ((char*) address < ((char*) obj->text_base + obj->text_size));
}

/**
 * Align the size to the next alignment point. Assume the alignment is a
 * positive integral power of 2 if not 0 or 1. If 0 or 1 then there is no
 * alignment.
 *
 * @param offset Offset to align up from.
 * @param alignment The alignment.
 * @return size_t Aligned offset.
 */
static inline size_t rtems_rtl_obj_align (size_t   offset,
                                          uint32_t alignment)
{
  if ((alignment > 1) && ((offset & (alignment - 1)) != 0))
    offset = (offset + alignment) & ~(alignment - 1);
  return offset;
}

/**
 * Is the symbol in this object's files globa symbol table?
 *
 * @param obj The object file's descriptor to search.
 * @param sym The symbol to check.
 * @retval bool Returns @true if present else @false is returned.
 */
static inline bool rtems_rtl_obj_has_symbol (const rtems_rtl_obj*     obj,
                                             const rtems_rtl_obj_sym* sym)
{
  return (sym >= obj->global_table &&
          sym < (obj->global_table + obj->global_syms));
}

/**
 * Is there space in the trampoline memory for a trapoline.
 *
 * @param obj The object file's descriptor to check for available space.
 * @param size The size to be allocated.
 * @retval bool Returns @true if the space is available.
 */
static inline size_t rtems_rtl_obj_tramp_avail_space (const rtems_rtl_obj* obj)
{
  return (char*) obj->tramp_brk - (char*) obj->trampoline;
}

/**
 * Is there space in the trampoline memory for a trapoline.
 *
 * @param obj The object file's descriptor to check for available space.
 * @param size The size to be allocated.
 * @retval bool Returns @true if the space is available.
 */
static inline bool rtems_rtl_obj_has_tramp_space (const rtems_rtl_obj* obj,
                                                  const size_t         size)
{
  return (obj->trampoline != NULL &&
          (rtems_rtl_obj_tramp_avail_space (obj) + size) <= obj->tramps_size);
}

/**
 * Trampoline slots.
 *
 * @param obj The object file's descriptor.
 * @retval size_t The number of trampoline slots.
 */
static inline size_t rtems_rtl_obj_trampoline_slots (const rtems_rtl_obj* obj)
{
  return obj->trampoline == NULL || obj->tramp_size == 0 ?
    0 : obj->tramps_size / obj->tramp_size;
}

/**
 * Number of trampolines.
 *
 * @param obj The object file's descriptor.
 * @retval size_t The number of trampolines.
 */
static inline size_t rtems_rtl_obj_trampolines (const rtems_rtl_obj* obj)
{
  return obj->trampoline == NULL || obj->tramp_size == 0 ?
    0 : rtems_rtl_obj_tramp_avail_space (obj) / obj->tramp_size;
}

/**
 * Does the section require architecture specific allocations?
 *
 * @param sect The section.
 * @retval bool Returns @true if the section requires arch allocation.
 */
static inline bool rtems_rtl_obj_sect_is_arch_alloc (rtems_rtl_obj_sect* sect)
{
  return (sect->flags & RTEMS_RTL_OBJ_SECT_ARCH_ALLOC) != 0;
}

/**
 * Allocate an object structure on the heap.
 *
 * @retval NULL No memory for the object.
 */
rtems_rtl_obj* rtems_rtl_obj_alloc (void);

/**
 * Free the object structure and related resources.
 *
 * @param obj The object file's descriptor to free.
 * @retval false The object has dependences.
 * @retval true The object has been freed.
 */
bool rtems_rtl_obj_free (rtems_rtl_obj* obj);

/**
 * Does the object file have unresolved external references ? If it does the
 * results of executing code is unpredictable.
 *
 * @param obj The object file's descriptor.
 * @retval true The object file has unresolved externals.
 * @retval false The object file has all external references resolved.
 */
bool rtems_rtl_obj_unresolved (rtems_rtl_obj* obj);

/**
 * Parses a filename and returns newly allocated strings with the archive name,
 * object name, and the object's offset
 *
 * @param name The filename of the object
 * @param aname Address of a string pointer that holds the archive name
 * @param oname Address of a string pointer that holds the object name
 * @param ooffset Address of an int that holds the object offset
 * @retval true The parsing was successful
 * @retval false The parsing was unsuccessful
 */
bool rtems_rtl_parse_name (const char*  name,
                           const char** aname,
                           const char** oname,
                           off_t*       ooffset);

/**
 * Find an object file on disk that matches the name. The object descriptor is
 * fill in with the various parts of a name. A name can have archive, object
 * file and offset components. The search path in the RTL is searched.
 *
 * @param obj The object file's descriptor.
 * @param name The name to locate on disk.
 * @retval true The file has been found.
 * @retval false The file could not be located. The RTL error has been set.
 */
bool rtems_rtl_obj_find_file (rtems_rtl_obj* obj, const char* name);

/**
 * Add a section to the object descriptor.
 *
 * @param obj The object file's descriptor.
 * @param section The section's index number.
 * @param name The name of the section.
 * @param size The size of the section in memory.
 * @param offset The offset of the section in the object file.
 * @param alignment The alignment of the section in memory.
 * @param link The section's link field (from the ELF format).
 * @param info The section's info field (from the ELF format).
 * @param flags The section's flags.
 * @retval true The section has been added.
 * @retval false The section has not been added. See the RTL error.
 */
bool rtems_rtl_obj_add_section (rtems_rtl_obj* obj,
                                int            section,
                                const char*    name,
                                size_t         size,
                                off_t          offset,
                                uint32_t       alignment,
                                int            link,
                                int            info,
                                uint32_t       flags);

/**
 * Erase the object file descriptor's sections.
 *
 * @param obj The object file's descriptor.
 */
void rtems_rtl_obj_erase_sections (rtems_rtl_obj* obj);

/**
 * Find the section given a name.
 *
 * @param obj The object file's descriptor.
 * @param name The name of the section to find.
 * @retval NULL The section was not found.
 * @return rtems_rtl_obj_sect_t* The named section.
 */
rtems_rtl_obj_sect* rtems_rtl_obj_find_section (const rtems_rtl_obj* obj,
                                                const char*          name);

/**
 * Find a section given a section's index number.
 *
 * @param obj The object file's descriptor.
 * @param index The section's index to find.
 * @retval NULL The section was not found.
 * @return rtems_rtl_obj_sect_t* The found section.
 */
rtems_rtl_obj_sect* rtems_rtl_obj_find_section_by_index (const rtems_rtl_obj* obj,
                                                         int                  index);

/**
 * Find a section given a section's mask. The index is the section after which
 * the mask is matched. An index of -1 starts the search from the beginning of
 * the section list. You can find multiple matches for a mask by passing the
 * index of the last section that matched the mask on a subsequent call.
 *
 * @param obj The object file's descriptor.
 * @param index The section's index to start searching from, -1 for the start.
 * @param mask The section's mask to match against the section's flags.
 * @retval NULL The section was not found.
 * @return rtems_rtl_obj_sect_t* The found section.
 */
rtems_rtl_obj_sect* rtems_rtl_obj_find_section_by_mask (const rtems_rtl_obj* obj,
                                                        int                  index,
                                                        uint32_t             mask);

/**
 * Allocate a table for trampoline fixup calls.
 *
 * @param obj The object file's descriptor.
 * @retval true The table was allocated.
 * @retval false The alloction failed.
 */
bool rtems_rtl_obj_alloc_trampoline (rtems_rtl_obj* obj);

/**
 * Erase the object file descriptor's trampoline table..
 *
 * @param obj The object file's descriptor.
 */
void rtems_rtl_obj_erase_trampoline (rtems_rtl_obj* obj);

/**
 * Allocate a table for dependent objects.
 *
 * @param obj The object file's descriptor.
 * @param dependents The size of the table.
 * @retval true The table was allocated.
 * @retval false The alloction failed.
 */
bool rtems_rtl_obj_alloc_dependents (rtems_rtl_obj* obj, size_t dependents);

/**
 * Erase the object file descriptor's dependents.
 *
 * @param obj The object file's descriptor.
 */
void rtems_rtl_obj_erase_dependents (rtems_rtl_obj* obj);

/**
 * Add an object file to the dependents table.
 *
 * @param obj The object file's descriptor.
 * @param dependent The dependent object file to add.
 * @retval true The dependent has been added to the table.
 * @retval false There is no space in the table.
 */
bool rtems_rtl_obj_add_dependent (rtems_rtl_obj* obj, rtems_rtl_obj* dependent);

/**
 * Remove dependencies. This decrements the dependent object file references.
 *
 * @param obj The object file's descriptor.
 * @retval true The dependencies have been removed.
 * @retval false There is no space in the table.
 */
bool rtems_rtl_obj_remove_dependencies (rtems_rtl_obj* obj);

/**
 * Iterate over the module dependenices.
 *
 * @param obj The object file's descriptor.
 * @param handler The iterator handler. Returns true to end.
 * @param data User data passed to the iterator.
 * @retval true The iterator handler returned true.
 * @retval false The iterator handler returned false.
 */
bool rtems_rtl_obj_iterate_dependents (rtems_rtl_obj*                 obj,
                                       rtems_rtl_obj_depends_iterator iterator,
                                       void*                          data);

/**
 * The text section size. Only use once all the sections has been added. It
 * includes alignments between sections that are part of the object's text
 * area. The consts sections are included in this section.
 *
 * @param obj The object file's descriptor.
 * @return size_t The size of the text area of the object file.
 */
size_t rtems_rtl_obj_text_size (const rtems_rtl_obj* obj);

/**
 * The text section alignment for the object file. Only use once all the
 * sections has been added. The section alignment is the alignment of the first
 * text type section loaded the text section.
 *
 * You can assume the alignment is a positive integral power of 2 if not 0 or
 * 1. If 0 or 1 then there is no alignment.
 *
 * @param obj The object file's descriptor.
 * @return uint32_t The alignment. Can be 0 or 1 for not aligned or the alignment.
 */
uint32_t rtems_rtl_obj_text_alignment (const rtems_rtl_obj* obj);

/**
 * The const section size. Only use once all the sections has been added. It
 * includes alignments between sections that are part of the object's const
 * area. The consts sections are included in this section.
 *
 * @param obj The object file's descriptor.
 * @return size_t The size of the const area of the object file.
 */
size_t rtems_rtl_obj_const_size (const rtems_rtl_obj* obj);

/**
 * The const section alignment for the object file. Only use once all the
 * sections has been added. The section alignment is the alignment of the first
 * const type section loaded the const section.
 *
 * You can assume the alignment is a positive integral power of 2 if not 0 or
 * 1. If 0 or 1 then there is no alignment.
 *
 * @param obj The object file's descriptor.
 * @return uint32_t The alignment. Can be 0 or 1 for not aligned or the alignment.
 */
uint32_t rtems_rtl_obj_const_alignment (const rtems_rtl_obj* obj);

/**
 * The eh section size. Only use once all the sections has been added. It
 * includes alignments between sections that are part of the object's bss area.
 *
 * @param obj The object file's descriptor.
 * @return size_t The size of the bss area of the object file.
 */
size_t rtems_rtl_obj_eh_size (const rtems_rtl_obj* obj);

/**
 * The eh section alignment for the object file. Only use once all the sections
 * has been added. The section alignment is the alignment of the first bss type
 * section loaded the bss section.
 *
 * You can assume the alignment is a positive integral power of 2 if not 0 or
 * 1. If 0 or 1 then there is no alignment.
 *
 * @param obj The object file's descriptor.
 * @return uint32_t The alignment. Can be 0 or 1 for not aligned or the alignment.
 */
uint32_t rtems_rtl_obj_eh_alignment (const rtems_rtl_obj* obj);

/**
 * The data section size. Only use once all the sections has been added. It
 * includes alignments between sections that are part of the object's data
 * area.
 *
 * @param obj The object file's descriptor.
 * @return size_t The size of the data area of the object file.
 */
size_t rtems_rtl_obj_data_size (const rtems_rtl_obj* obj);

/**
 * The data section alignment for the object file. Only use once all the
 * sections has been added. The section alignment is the alignment of the first
 * data type section loaded the data section.
 *
 * You can assume the alignment is a positive integral power of 2 if not 0 or
 * 1. If 0 or 1 then there is no alignment.
 *
 * @param obj The object file's descriptor.
 * @return uint32_t The alignment. Can be 0 or 1 for not aligned or the alignment.
 */
uint32_t rtems_rtl_obj_data_alignment (const rtems_rtl_obj* obj);

/**
 * The bss section size. Only use once all the sections has been added. It
 * includes alignments between sections that are part of the object's bss area.
 *
 * @param obj The object file's descriptor.
 * @return size_t The size of the bss area of the object file.
 */
size_t rtems_rtl_obj_bss_size (const rtems_rtl_obj* obj);

/**
 * The bss section alignment for the object file. Only use once all the
 * sections has been added. The section alignment is the alignment of the first
 * bss type section loaded the bss section.
 *
 * You can assume the alignment is a positive integral power of 2 if not 0 or
 * 1. If 0 or 1 then there is no alignment.
 *
 * @param obj The object file's descriptor.
 * @return uint32_t The alignment. Can be 0 or 1 for not aligned or the alignment.
 */
uint32_t rtems_rtl_obj_bss_alignment (const rtems_rtl_obj* obj);

/**
 * Relocate the object file. The object file's section are parsed for any
 * relocation type sections.
 *
 * @param obj The object file's descriptor.
 * @param fd The object file's file descriptor.
 * @param handler The object file's format specific relocation handler.
 * @param data User specific data handle.
 * @retval true The object file was relocated.
 * @retval false The relocation failed. The RTL error is set.
 */
bool rtems_rtl_obj_relocate (rtems_rtl_obj*             obj,
                             int                        fd,
                             rtems_rtl_obj_sect_handler handler,
                             void*                      data);

/**
 * Synchronize caches to make code visible to CPU(s)
 *
 * @param obj The object file's descriptor.
 */
void rtems_rtl_obj_synchronize_cache (rtems_rtl_obj* obj);

/**
 * Relocate an object file's unresolved reference.
 *
 * @param rec The unresolved relocation record.
 * @param sym The unresolved relocation's referenced symbol.
 * @retval true The object file record was relocated.
 * @retval false The relocation failed. The RTL error is set.
 */
bool rtems_rtl_obj_relocate_unresolved (rtems_rtl_unresolv_reloc* reloc,
                                        rtems_rtl_obj_sym*        sym);

/**
 * Load the symbols from the object file. Only the exported or public symbols
 * are read into memory and held in the global symbol table.
 *
 * @param obj The object file's descriptor.
 * @param fd The object file's file descriptor.
 * @param handler The object file's format specific symbol handler.
 * @param data User specific data handle.
 * @retval true The object file's symbol where loaded.
 * @retval false The symbol loading failed. The RTL error is set.
 */
bool rtems_rtl_obj_load_symbols (rtems_rtl_obj*             obj,
                                 int                        fd,
                                 rtems_rtl_obj_sect_handler handler,
                                 void*                      data);

/**
 * Allocate the sections. If a handler is provided (not NULL) it is called for
 * all section.
 *
 * @param obj The object file's descriptor.
 * @param fd The object file's file descriptor.
 * @param handler The object file's format specific allocation handler.
 * @param data User specific data handle.
 * @retval true The object has been sucessfully loaded.
 * @retval false The load failed. The RTL error has been set.
 */
bool
rtems_rtl_obj_alloc_sections (rtems_rtl_obj*             obj,
                              int                        fd,
                              rtems_rtl_obj_sect_handler handler,
                              void*                      data);

/**
 * Load the sections that have been allocated memory in the target. The bss
 * type section does not load any data, it is set to 0. The text and data
 * sections read the detault data from the object file into the target memory.
 *
 * @param obj The object file's descriptor.
 * @param fd The object file's file descriptor.
 * @param handler The object file's format specific load handler.
 * @param data User specific data handle.
 * @retval true The object has been sucessfully loaded.
 * @retval false The load failed. The RTL error has been set.
 */
bool rtems_rtl_obj_load_sections (rtems_rtl_obj*             obj,
                                  int                        fd,
                                  rtems_rtl_obj_sect_handler handler,
                                  void*                      data);

/**
 * Does the object have constructors to run?
 *
 * @return bool True if there are constructors to run.
 */
bool rtems_rtl_obj_ctors_to_run (rtems_rtl_obj* obj);

/**
 * Invoke the constructors the object has. Constructors are a table of pointers
 * to "void (*)(void);" where NULL pointers are skipped. The table's size is
 * taken from the section's size. The objet ELF specific code is responisble
 * for flagging which sections contain constructors.
 *
 * @param obj The object file's descriptor.
 */
void rtems_rtl_obj_run_ctors (rtems_rtl_obj* obj);

/**
 * Does the object have destructors to run?
 *
 * @return bool True if there are destructors to run.
 */
bool rtems_rtl_obj_dtors_to_run (rtems_rtl_obj* obj);

/**
 * Invoke the destructors the object has. Destructors are a table of pointers
 * to "void (*)(void);" where NULL pointers are skipped. The table's size is
 * taken from the section's size. The objet ELF specific code is responisble
 * for flagging which sections contain destructors.
 *
 * @param obj The object file's descriptor.
 */
void rtems_rtl_obj_run_dtors (rtems_rtl_obj* obj);

/**
 * Get the object file reference count.
 *
 * @retval int The object file's reference count.
 */
size_t rtems_rtl_obj_get_reference (rtems_rtl_obj* obj);

/**
 * Increment the object file reference count.
 *
 * @param obj The object file's descriptor.
 */
void rtems_rtl_obj_inc_reference (rtems_rtl_obj* obj);

/**
 * Decrement the object file reference count.
 *
 * @param obj The object file's descriptor.
 */
void rtems_rtl_obj_dec_reference (rtems_rtl_obj* obj);

/**
 * Is the object file orphaned? An orphaned object file is not locked, has no
 * users and it not being referenced.
 *
 * @param obj The object file's descriptor.
 */
bool rtems_rtl_obj_orphaned (rtems_rtl_obj* obj);

/**
 * Load the object file, reading all sections into memory, symbols and
 * performing any relocation fixups.
 *
 * @param obj The object file's descriptor.
 * @retval true The object file has been loaded.
 * @retval false The load failed. The RTL error has been set.
 */
bool rtems_rtl_obj_load (rtems_rtl_obj* obj);

/**
 * Unload the object file, erasing all symbols and releasing all memory.
 *
 * @param obj The object file's descriptor.
 * @retval true The object file has been unloaded.
 * @retval false The unload failed. The RTL error has been set.
 */
bool rtems_rtl_obj_unload (rtems_rtl_obj* obj);

#ifdef __cplusplus
}
#endif /* __cplusplus */

#endif
